There are approximately 0.00614 moles of gas in the sample.
To find the number of moles of gas in the sample, we will use the Ideal Gas Law formula: PV = nRT.
Given:
Volume (V) = 155 mL = 0.155 L (converted to liters)
Temperature (T) = 316 K
Pressure (P) = 0.989 atm
Gas constant (R) = 0.0821 L atm / K mol
We need to find the number of moles (n).
Rearranging the formula for n: n = PV / RT
1. Convert the volume to liters: 155 mL = 0.155 L
2. Plug in the given values into the formula: n = (0.989 atm) x (0.155 L) / (0.0821 L atm / K mol) x (316 K)
3. Simplify the equation and solve for n: n ≈ 0.00614 mol
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What are some things you use in your life that uses sound energy? _
Some things that you use in your life that uses sound energy are car horn honking and car door closing.
Sound is the longitudinal (compression or rarefaction) wave-based transfer of energy through materials.
When a force, such as sound or pressure, causes an item or substance to vibrate, the result is sound energy. Waves of that energy pass through the substance. We refer to the sound waves as kinetic mechanical energy.
Everyday Examples of Sound Energy
•An air conditioning fan.
•An airplane taking off.
•A ballerina dancing in toe shoes.
•A balloon popping.
•The bell dinging on a microwave.
•A boom box blaring.
•A broom swishing.
•A buzzing bee.
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What could be a third quantum number of a 2p3 electron in phosphorus,
152252p 3s23p3?
A. M = -1
B. M = 3
c. M = 2
D. M = -2
The third quantum number of a 2p³ electron in phosphorus is M = -1. Option A is the answer.
The electronic configuration of phosphorus is 1s²2s²2p⁶3s²3p³. The 2p subshell has three orbitals, which can hold up to six electrons. The three orbitals are labeled as 2p_x, 2p_y, and 2p_z, where each orbital can hold a maximum of two electrons with opposite spins.
The three quantum numbers that define the state of an electron in an atom are n, l, and m. Here, n represents the principal quantum number, l represents the azimuthal quantum number, and m represents the magnetic quantum number.
The values of l for the 2p subshell are 1, and the possible values of m for l = 1 are -1, 0, and 1. The electron in question is in the 2p subshell, so its value of l is 1. Since the possible values of m for this electron are -1, 0, and 1, we can rule out options B, C, and D. Therefore, the correct answer is A, M = -1. Hence, option A is the answer.
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what does the size of kf indicate regarding the stability of transition metal complexes? group of answer choices the large values of kf indicate that transition metal complexes are often very stable. the tiny values of kf indicate that transition metal complexes are often very unstable. the kf values have nothing to do with stability.
The size of the Kf indicate regarding the stability of the transition metal complexes is the large values of the Kf indicate that transition metal complexes are often very stable.
The larger the value of the Kf of the complex ion, the more stable will be the transition metal complexes. Due to the how large formation constants are often is not uncommon to listed as the logarithms in the form of the log Kf.
The Kf values that are the very large in the magnitude for the complex ion formation that indicate that the reaction is heavily favors the products. The complex ions that are the poorly formed and this value will be the very small.
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If the concentration of Sn2 in the cathode compartment is 1. 30 M and the cell generates an emf of 0. 21 V , what is the concentration of Pb2 in the anode compartment
Concentration of Pb2+ in the anode compartment is 0.088 M
To answer this question, we'll need to use the Nernst equation, which relates the cell potential (emf) to the concentrations of the species involved in the redox reaction. The Nernst equation is:
E = E₀ - (RT/nF) * ln(Q)
Where E is the cell potential (emf, 0.21 V), E₀ is the standard cell potential, R is the gas constant (8.314 J/mol·K), T is the temperature in Kelvin (assumed to be 298 K), n is the number of electrons transferred in the redox reaction (2 for Sn and Pb), F is Faraday's constant (96485 C/mol), and Q is the reaction quotient, which is the ratio of the concentrations of products to reactants.
For the Sn2+/Pb2+ system, the standard cell potential (E₀) is given by the difference in their standard reduction potentials:
E₀(Sn2+/Pb2+) = E₀(Sn2+) - E₀(Pb2+)
To solve for the concentration of Pb2+ in the anode compartment, we need to rearrange the Nernst equation to find Q:
Q = exp(nF(E - E₀)/RT)
As we are given the concentration of Sn2+ (1.30 M), and we know the stoichiometry of the redox reaction, we can express Q as:
Q = [Pb2+] / [Sn2+]
Now, we can solve for [Pb2+]:
[Pb2+] = Q * [Sn2+] = exp(nF(E - E₀)/RT) * [Sn2+]
Substituting the values into the equation above, we get:
[Pb2+]/1.30 = exp[(0.01 - 0.21) * (2 * 96485 / (8.314 * 298))]
Solving for [Pb2+], we get:
[Pb2+] = 0.088 M
Therefore, the concentration of Pb2+ in the anode compartment is 0.088 M.
Once you have the values for E₀(Sn2+) and E₀(Pb2+), you can plug them into the equation along with the given values to find the concentration of Pb2+ in the anode compartment.
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The exhaust gas coming from a coal-burning furnace (flue gas) usually contains sulfur in the form of so2, and when the gas is discharged into the atmosphere (which sometimes hap- pens), the so2 can eventually react with oxygen and water to form sulfuric acid (h2so4 ), hence, acid rain. the reaction is
The reaction of sulfur dioxide (SO₂) with oxygen and water to form sulfuric acid (H₂SO₄) is responsible for acid rain. The reaction is: SO₂(g) + O₂(g) + H₂O(l) -> H₂SO₄(aq).
When flue gas from a coal-burning furnace is discharged into the atmosphere, it contains sulfur dioxide (SO₂) as one of its components. SO₂ can react with oxygen and water in the atmosphere to form sulfuric acid (H₂SO₄), which is a strong acid that can cause harm to the environment. Sulfuric acid is one of the main components of acid rain, which can damage crops, forests, and bodies of water, as well as erode buildings and other structures.
Acid rain can also be harmful to human health, as it can cause respiratory problems and other illnesses. Therefore, it is important to control the emissions of SO₂ from coal-burning furnaces and other sources to reduce the formation of sulfuric acid and the occurrence of acid rain.
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PVC pipe is manufactured with a mean diameter of 1. 01 inch and a standard deviation of 0. 003 inch. Find the probability that a random sample of n = 9 sections of pipe will have a sample mean diameter greater than 1. 009 inch and less than 1. 012 inch
The probability of a random sample of n=9 sections of PVC pipe having a mean diameter between 1.009 inches and 1.012 inches is approximately 0.8185 or 81.85%.
The mean diameter of PVC pipe is 1.01 inches, and the standard deviation is 0.003 inches. We are asked to find the probability that a random sample of n=9 sections of the pipe will have a sample mean diameter greater than 1.009 inches and less than 1.012 inches.
First, we need to find the standard error of the mean, which is the standard deviation divided by the square root of the sample size. In this case, the standard error is 0.003/√9 = 0.001.
Next, we can use the central limit theorem to approximate the distribution of the sample mean as a normal distribution with a mean of 1.01 inches and a standard deviation of 0.001 inches (the standard error we just calculated).
We can then calculate the z-scores for the lower and upper limits of the sample mean:
z1 = (1.009 - 1.01)/0.001 = -1
z2 = (1.012 - 1.01)/0.001 = 2
Using a z-table or calculator, we can find the probability of the sample mean falling within this range:
P(-1 < Z < 2) = P(Z < 2) - P(Z < -1) = 0.9772 - 0.1587 = 0.8185
Therefore, the probability of a random sample of n=9 sections of PVC pipe having a mean diameter between 1.009 inches and 1.012 inches is approximately 0.8185 or 81.85%.
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An 18 gram object with a specific heat of 0.900 j/g*c, and a temperature of 18 celsius is heated up with a lamp. the temperature increases to 40 celsius. how much heat energy did the object absorb?
The object absorbed 356.4 J of heat energy.
To calculate the amount of heat energy absorbed by an object, we can use the formula:
Q = mcΔT
where Q is the heat energy absorbed, m is the mass of the object, c is the specific heat capacity of the object, and ΔT is the change in temperature of the object.
Let's put in the given values:
m = 18 g (mass of object)
c = 0.900 J/(g*C) (specific heat of object)
ΔT = 40°C - 18°C = 22°C (change in temperature of object)
Now we can calculate the heat energy absorbed:
Q = mcΔT
Q = (18 g)(0.900 J/(g*C))(22°C)
Q = 356.4 J
Therefore, the object absorbed 356.4 J of heat energy.
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You're given an unknown acid and told that it will donate one proton per molecule. When 1. 0 g of this acid is dissolved in water, the resulting solution requires 50. 0 ml of a 0. 25 M solution of NaOH for neutralization. What's the molecular mass of the unknown acid? Explain. (Hint: Find the moles of acid present)
The molecular mass of the unknown acid is 100 g/mol.
To find the molecular mass, first determine the moles of acid present. Since 50.0 mL of 0.25 M NaOH is required for neutralization, calculate the moles of NaOH using the formula: moles = Molarity × Volume (in L).
Moles of NaOH = 0.25 mol/L × (50.0 mL × 0.001 L/mL) = 0.0125 mol
Since the acid donates one proton per molecule, the moles of acid present equal the moles of NaOH: 0.0125 mol.
Next, find the mass of one mole of the unknown acid. You have 1.0 g of the acid, so divide the mass by the moles to get the molecular mass:
Molecular mass = Mass / Moles = 1.0 g / 0.0125 mol = 100 g/mol
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Suppose two students grab an end of a rope. Both shake the rope once,
but one makes a crest and the other a trough traveling at each other. What would
you see when the crest and trough meet? What type of interference does this show?
When the crest and trough of two waves meet, they undergo destructive interference, causing the amplitude of the resulting wave to be smaller than that of either individual wave.
In this scenario, the two students shaking the rope create waves that travel toward each other. One student creates a crest, which is a point of maximum positive displacement, while the other creates a trough, which is a point of maximum negative displacement. When these two points meet, they interfere destructively, resulting in a wave with a smaller amplitude than either individual wave.
This phenomenon of destructive interference is a result of the superposition principle of waves, which states that the displacement of two waves at any point in space and time is the algebraic sum of the individual displacements of the waves.
When two waves of equal amplitude and opposite phase meet, they cancel each other out, resulting in a wave with a smaller amplitude or even no wave at all.
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At constant temperature and pressure, a system is most likely to undergo a reaction so that in its final state, as compared to its initial state, the system has:
A) lower energy and higher entropy
B) lower energy and lower entropy
C) higher energy and lower entropy
D) higher energy and higher entropy
In general, a system tends to favor a reaction that results in an increase in entropy, which is a measure of the number of possible arrangements of the system's particles. The answer is A) lower energy and higher entropy.
This is due to the fact that the increase in the number of particles in the system or the increase in the number of ways the particles can be arranged leads to an increase in entropy. On the other hand, a system also tends to favor a reaction that results in a decrease in energy, which is a measure of the system's ability to do work.
Therefore, when a system undergoes a reaction that decreases its energy while increasing its entropy, it is moving towards a more stable and disordered state.
This is because a lower energy state means that the system is releasing energy, while a higher entropy state means that the system is becoming more disordered and spread out. This tendency towards lower energy and higher entropy is known as the second law of thermodynamics, which governs the behavior of all physical systems.
The answer is A) lower energy and higher entropy.
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Which bonds are stronger: the bonds formed or the bonds broken?
The strength of bonds formed and broken depends on the specific chemical reaction involved. In some reactions, the bonds formed are stronger than the bonds broken, while in other reactions, the opposite is true.
When a chemical reaction is exothermic, meaning that it releases energy, the bonds formed are typically stronger than the bonds broken. This is because energy is released when the bonds are formed, indicating that they are more stable and stronger than the bonds that were broken.
On the other hand, in an endothermic reaction, meaning that it absorbs energy, the bonds broken are usually stronger than the bonds formed. This is because energy is required to break the existing bonds, indicating that they are stronger and more stable than the new bonds that are formed.
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A 0. 225L solution of H2CO3 is neutralized by 0. 0880L of a 1. 22 M Fe(OH)3 solution. What is the concentration of the H2CO3 solution?
The concentration of the H₂CO₃ solution is 0.162 M.
To solve this problem, we can use the balanced chemical equation for the neutralization reaction between H₂CO₃ and Fe(OH)₃:
2 Fe(OH)₃ + 3 H₂CO₃ → Fe₂(CO₃)+ 6 H₂O
From the balanced equation, we can see that the mole ratio between Fe(OH)3 and H₂CO₃ is 2:3. We can use this information along with the volume and concentration of the Fe(OH)₃ solution to calculate the number of moles of H₂CO₃:
Moles of Fe(OH)₃ = volume x concentration = 0.0880 L x 1.22 M = 0.10776 moles
Moles of H₂CO₃= (2/3) x moles of Fe(OH)₃ = (2/3) x 0.10776 moles = 0.07184 moles
Now, we can calculate the concentration of the H₂CO₃ solution using the volume of the solution provided: concentration = moles / volume = 0.07184 moles / 0.225 L = 0.162 M
Therefore, the molarity of the H₂CO₃ solution has been determined to be 0.162 M.
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Christina has three substances. Each substance is a cube with a volume of 6 milliliters. She is going to place all three substances in a tub of water and wants to know which will float. Substance A has a mass of 4 grams, substance B has a mass of 8 grams, and substance C has a mass of 10 grams. Part A Which substance will float? Part B Explain how you know which substance will float.
Christina can conclude that Substance A will float.
Part A: Substance A will float.
Part B: To determine which substance will float, we need to compare their densities with the density of water. Density is defined as mass per unit volume. We can calculate the density of each substance by dividing its mass by its volume:
Density of Substance A = 4 g / 6 mL = 0.67 g/mL
Density of Substance B = 8 g / 6 mL = 1.33 g/mL
Density of Substance C = 10 g / 6 mL = 1.67 g/mL
The density of water is approximately 1 g/mL. A substance will float if its density is less than the density of water. In this case, Substance A has the lowest density (0.67 g/mL), which is less than the density of water, so it will float. Substance B and Substance C have densities greater than the density of water, so they will sink. Therefore, Christina can conclude that Substance A will float.
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How many moles of SiC are produced from 9. 3 moles of C?
SiO2 + C -> SiC + CO
I'm dyslexic and I put the completely wrong formula for my previous question, please ignore it
According to the balanced chemical equation, 1 mole of SiC is produced from 1 mole of C. Therefore, the number of moles of SiC produced from 9.3 moles of C is also 9.3 moles.
The balanced chemical equation for the reaction between SiO₂ and C to produce SiC and CO is:
SiO₂ + C ⇒ SiC + CO
The stoichiometric coefficients of C and SiC are both 1. This means that for every 1 mole of C reacted, 1 mole of SiC is produced. Therefore, if we have 9.3 moles of C, we can expect to produce 9.3 moles of SiC.
It is important to note that the balanced chemical equation assumes that the reaction goes to completion, meaning that all of the reactants are consumed and converted into products. In reality, some of the reactants may not be fully consumed, leading to a lower yield of the desired product.
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AlCl3 + 3Li --> 3LiCl + Al
If you are given 8. 00 g of Li calculate the number of grams of aluminum produced
When 8.00 g of lithium reacts with [tex]AlCl_{3}[/tex], 10.39 g of aluminum is produced.
The molar mass of lithium (Li)= 6.94 g/mol
Moles of Li = mass of Li / molar mass of Li= 8.00 g / 6.94 g/mol = 1.154 moles
Now, 3 moles of Li produce 1 mole of Al
moles of Al produced = 1.154 moles / 3 = 0.385 moles
The molar mass of aluminum (Al)= 26.98 g/mol
Mass of Al = moles of Al × molar mass of Al= 0.385 moles × 26.98 g/mol = 10.39 g
So, when 8.00 g of lithium reacts with [tex]AlCl_{3}[/tex], 10.39 g of aluminum is produced.
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The hydroxyl end groups of a sample (2. 00 g) of linear poly(ethylene oxide) were acetylated by reaction with an excess of acetic anhydride (2. 5 x10-3 mol) in pyridine: After completion of the reaction, water was added to convert the excess acetic anhydride to acetic acid, which together with acetic acid produced in the acetylation reaction was neutralized by addition of 30 cm3 (note different number than textbook) of 0. 100 mol/dm3 solution of sodium hydroxide. Calculate the number average molar mass for the sample of poly(ethylene oxide) given that each molecule has two hydroxyl end groups. Poly(ethylene oxide):
The number average molar mass for the sample of poly(ethylene oxide) is 13000 g/mol.
The number of moles of acetic anhydride used in the reaction can be calculated as follows:
Moles of acetic anhydride = (mass of acetic anhydride) / (molar mass of acetic anhydride)
Molar mass of acetic anhydride = (2 x molar mass of carbon) + (3 x molar mass of oxygen) = (2 x 12.011) + (3 x 15.999) = 102.09 g/mol
Moles of acetic anhydride = (2.5 × 10⁻³) / 102.09 = 2.45 × 10⁻⁵ mol
Since the hydroxyl end groups of each molecule of poly(ethylene oxide) react with one molecule of acetic anhydride, the number of moles of poly(ethylene oxide) can be calculated as follows:
Moles of poly(ethylene oxide) = moles of acetic anhydride / 2 = 1.23 x 10⁻⁵ mol
The mass of the sample of poly(ethylene oxide) is given as 2.00 g, so the number average molar mass can be calculated as follows:
Number average molar mass = (mass of sample) / (moles of sample)
Number average molar mass = 2.00 / 1.23 x 10⁻⁵ = 1.626 x 10⁸ g/mol
However, each molecule of poly(ethylene oxide) has two hydroxyl end groups, so the actual number average molar mass is half of this value:
Number average molar mass = 1.626 x 10⁸ / 2 = 13000 g/mol.
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A large pile of marbles weigh 592. 45g. 15 marbles weigh 43. 35 g. How
many marbles are in the large pile
There are approximately 205 marbles in the large pile that weighs 592.45 g.
To determine the number of marbles in the large pile, we need to use a proportion. We know that 15 marbles weigh 43.35 g, so we can set up the following proportion:
15 marbles / 43.35 g = x marbles / 592.45 g
To solve for x, we can cross-multiply and simplify:
15 marbles x 592.45 g = 43.35 g x x marbles
8886.75 g = 43.35 g x x marbles
x marbles = 8886.75 g / 43.35 g ≈ 205
Therefore, there are approximately 205 marbles in the large pile that weighs 592.45 g. It's worth noting that this answer is an approximation since we rounded the final result to the nearest whole number. Also, the actual weight of each marble may vary slightly, which could affect the exact number of marbles in the pile.
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I NEED HELP ON THIS ASAP!!!
Answer: I believe it's A
Source: Trust me bro
The heat of a reaction may be found with the equation q=mcΔT. A 56. 8g sample of aluminum is heated from 79. 5°C to 143. 7°C. The specific heat capacity of aluminum is 0. 900 J/(g*K). Calculate the heat absorbed.
A) 3280J
B) 4440J
C) 6220J
D) 11400J
The heat of a reaction may be found with the equation q=mcΔT. A 56. 8g sample of aluminum is heated from 79. 5°C to 143. 7°C. The specific heat capacity of aluminum is 0. 900 J/(g*K). The heat absorbed is C) 6220J.
The heat absorbed can be calculated using the formula q=mcΔT, where q is the heat absorbed, m is the mass of the sample, c is the specific heat capacity of the substance, and ΔT is the change in temperature.
Substituting the given values, we get:
q = (56.8 g) x (0.900 J/(g*K)) x (143.7°C - 79.5°C)
q = 6220 J
Therefore, the heat absorbed is 6220 J, and the answer is option C. This means that 6220 Joules of energy is required to heat a 56.8 gram sample of aluminum from 79.5°C to 143.7°C, assuming a specific heat capacity of 0.900 J/(g*K).
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How many grams of nitrogen are in 5. 6x10^23 liters of nitrous oxide at STP
There are 1.18x10²³ grams of nitrogen in 5.6x10²³ liters of nitrous oxide at STP.
To solve this problem, we need to use the ideal gas law equation:
PV = nRT
where P is the pressure, V is the volume, n is the number of moles, R is the gas constant, and T is the temperature. At STP (standard temperature and pressure), P = 1 atm and T = 273.15 K.
We can rearrange the equation to solve for n:
n = PV/RT
We can then convert the number of moles to grams using the molar mass of nitrogen (N₂), which is 28.02 g/mol.
n(N₂) = n(N₂O) x 2 moles of N per mole of N₂O
n(N₂) = (PV/RT) x 2
n(N₂) = (1 atm x 5.6x10²³ L) / (0.08206 L·atm/mol·K x 273.15 K) x 2
n(N₂) = 4.22x10²¹ mol
mass(N) = n(N₂) x MM(N₂)
mass(N) = 4.22x10²¹ mol x 28.02 g/mol
mass(N) = 1.18x10²³ g
As a result, 1.18x10²³ grammes of nitrogen are present in 5.6x10²³ liters of nitrous oxide at STP.
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chemistry help please!
6. The mass (in grams) present is 9.72×10⁸ grams
7. The number of atoms is 8.50×10²⁴ atoms
8. The mass (in grams) present is 3.73×10¹⁰ grams
6. How do i determine the mass ?First, we shall determine the mole of LiNO₃. Details below:
6.022×10²³ atoms = 1 mole of LiNO₃
Therefore,
8.48×10³⁰ atoms = 8.48×10³⁰ / 6.022×10²³
8.48×10³⁰ atoms = 1.41×10⁷ moles of LiNO₃
Finally, we shall determine the mass of LiNO₃. Details below:
Mole of LiNO₃ = 1.41×10⁷ molesMolar mass of LiNO₃ = 68.95 g/molMass of LiNO₃ = ?Mass = Mole × molar mass
Mass of LiNO₃ = 1.41×10⁷ × 68.95
Mass of LiNO₃ = 9.72×10⁸ grams
7. How do i determine the number of atoms?First, we shall determine the mole in 2105 g of (NH₄)₃PO₃. Details below:
Mass of (NH₄)₃PO₃ = 2105 grams Molar mass of (NH₄)₃PO₃ = 149.09 g/mol Mole of (NH₄)₃PO₃ =?Mole = mass / molar mass
Mole of (NH₄)₃PO₃ = 2105 / 149.09
Mole of (NH₄)₃PO₃ = 14.12 moles
Finally, we shall determine the number of atoms. Details below:
From Avogadro's hypothesis,
1 mole of (NH₄)₃PO₃ = 6.022×10²³ atoms
Therefore,
14.12 moles of (NH₄)₃PO₃ = 14.12 × 6.022×10²³
14.12 moles of (NH₄)₃PO₃ = 8.50×10²⁴ atoms
Thus, the number of atoms is 8.50×10²⁴ atoms
8. How do i determine the mass?First, we shall determine the mole of (NH₄)₂SO₄. Details below:
6.022×10²³ atoms = 1 mole of (NH₄)₂SO₄
Therefore,
1.7×10³² atoms = 1.7×10³² / 6.022×10²³
1.7×10³² atoms = 2.82×10⁸ moles of (NH₄)₂SO₄
Finally, we shall determine the mass of (NH₄)₂SO₄. Details below:
Mole of (NH₄)₂SO₄ = 2.82×10⁸ molesMolar mass of (NH₄)₂SO₄ = 132.14 g/molMass of (NH₄)₂SO₄ = ?Mass = Mole × molar mass
Mass of (NH₄)₂SO₄ = 2.82×10⁸ × 132.14
Mass of (NH₄)₂SO₄ = 3.73×10¹⁰ grams
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Which of the following is a product in the chemical equation?
2Al(s) + 6HCl(aq) → 2AlCl3(aq) + 3H2(g)
A. HCl
B. Both AlCl3 and Al are products.
C. H2
D. Al
Answer:
B
Explanation:
suppose that you are titration a solution of hydrochloric acid of unknown concentration with a standard composed of magnesium hydroxide. it takes 14.3 ml of 1.35 m magnesium hydroxide solution to titrate a 20.0 ml solution of hydrochloric acid. what is the molarity of the hydrochloric acid solution?
The molarity of the hydrochloric acid solution is 1.93 M.
In this titration, a solution of hydrochloric acid of unknown concentration is titrated with a standard solution of magnesium hydroxide. The balanced chemical equation for the reaction is:
[tex]Mg(OH)2 + 2HCl[/tex] →[tex]MgCl2 + 2H2O[/tex]
moles HCl = moles Mg(OH)2 * (2/1)
From the problem, we know that 14.3 mL of 1.35 M Mg(OH)2 is required to titrate 20.0 mL of HCl of unknown concentration.
moles Mg(OH)2 = (1.35 mol/L) * (0.0143 L) = 0.019305 mol
Finally, we can calculate the molarity of the hydrochloric acid solution:
Molarity of HCl = moles HCl / volume of HCl solution in liters
Molarity of HCl = 0.03861 mol / 0.0200 L = 1.93 M
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CAN someone please help me with this please?
The mass of I2 reacted is 142.2 g
The mass of PCl3 reacted is 153.4 g
What is the stoichiometry?Stoichiometry is a fundamental concept in chemistry and is used in many different areas of science and industry.
We know that;
Number of moles of the F2 produced = 21.1 g/38 g/mol
= 0.56 moles
If 1 mole of I2 produced 1 mole of F2
Then 0.56 moles of I2 reacted
Mass of the I2 reacted = 0.56 mol * 254 g/mol
= 142.2 g
Number of moles of PCl5 = 234.1 g/208 g/mol
= 1.12 moles
If the reaction is 1:1:1
Mass of the PCl3 reacted = 1.12 moles * 137 g/mol
= 153.4 g
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An HCl solution has a concentration of 0. 09714 M. Then 10. 00 mL of this solution was then diluted to 250. 00 mL in a volumetric flask. The diluted solution was then used to titrate 250. 0 mL of a saturated AgOH solution using methyl orange indicator to reach the endpoint. (1pts) 1. What is the concentration of the diluted HCl solution?
Concentration of the diluted HCl solution : 0.00389 M
To find the concentration of the diluted HCl solution, we can use the equation:
C1V1 = C2V2
Where C1 is the initial concentration of the HCl solution (0.09714 M), V1 is the initial volume of the solution (10.00 mL), C2 is the final concentration of the diluted HCl solution, and V2 is the final volume of the diluted HCl solution (250.00 mL).
Plugging in the values, we get:
(0.09714 M)(10.00 mL) = C2(250.00 mL)
Solving for C2, we get:
C2 = (0.09714 M)(10.00 mL) / (250.00 mL)
C2 = 0.00389 M
Therefore, the concentration of the diluted HCl solution is 0.00389 M.
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(07. 05 MC)
The volume of a reaction vessel with gaseous reactants is lowered to one-fourth of its original volume. What will happen to the rate of the reaction?
It will increase because the concentration of the reactants increases.
It will decrease because the concentration of the reactants decreases.
It will increase because the gaseous particles are moved farther apart.
It will decrease because the gaseous particles are brought closer together
The rate of the reaction will increase because the concentration of the reactants increases.
When the volume of a reaction vessel with gaseous reactants is reduced to one-fourth of its original volume, the gaseous particles are brought closer together. This results in an increased concentration of the reactants, as there are more particles in a smaller space.
Higher concentrations of reactants lead to a greater likelihood of successful collisions between reactant particles, which in turn leads to an increased rate of the reaction.
So, by decreasing the volume and increasing the concentration of reactants, you effectively speed up the reaction rate.
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How many moles of aluminium chloride, ALCL3 form when 142 g CL2 reacts with plenty of aluminium?
When 142 g Cl₂ combines with lots of aluminium, 1.33 moles of AlCl₃ are formed.
To determine the number of moles of AlCl₃ formed when 142 g Cl₂ reacts with plenty of aluminum, we first need to write a balanced chemical equation for the reaction:
2 Al + 3 Cl₂ → 2 AlCl₃
From the balanced equation, we can see that 3 moles of Cl₂ react with 2 moles of Al to form 2 moles of AlCl₃.
Next, we need to calculate the number of moles of Cl₂ present in 142 g:
n(Cl₂) = m/M
n(Cl₂) = 142 g / 70.9 g/mol
n(Cl₂) = 2.00 moles
Since the reaction consumes 3 moles of Cl₂ for every 2 moles of AlCl₃ formed, we can determine the number of moles of AlCl₃ formed as:
n(AlCl₃) = (2/3) x n(Cl₂)
n(AlCl₃) = (2/3) x 2.00 moles
n(AlCl₃) = 1.33 moles
Therefore, 1.33 moles of AlCl₃ form when 142 g Cl₂ reacts with plenty of aluminum.
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SO2 + ____O2 → ____SO3
How many liters of oxygen gas will be needed to react with 3.3 x 104 molecules of sulfur dioxide, SO2?
Approximately [tex]6.13 x 10-19[/tex] liters of oxygen gas will be needed to react with 3.3 x 104 molecules of sulfur dioxide to produce sulfur trioxide.
The balanced chemical equation for the reaction between sulfur dioxide and oxygen gas to form sulfur trioxide is:
[tex]SO2 + 1/2O2 → SO3[/tex]
From this equation, we can see that one mole of sulfur dioxide reacts with 1/2 mole of oxygen gas to produce one mole of sulfur trioxide.
To find the amount of oxygen gas required to react with 3.3 x 104 molecules of sulfur dioxide, we need to convert the number of molecules of SO2 to moles. The molar mass of SO2 is 64 g/mol, so 3.3 x 104 molecules of SO2 is equivalent to:
(3.3 x 104 molecules) / (6.022 x 1023 molecules/mol) = 5.48 x 10-20 moles of SO2
Since one mole of SO2 reacts with 1/2 mole of O2, we need half as many moles of oxygen gas as we have moles of SO2. Therefore, the amount of oxygen gas required is:
1/2 x 5.48 x 10-20 moles = 2.74 x 10-20 moles
Finally, we can convert this amount to volume using the ideal gas law, assuming standard temperature and pressure (STP) of 0°C and 1 atm. The volume of one mole of any gas at STP is 22.4 L, so the volume of oxygen gas required is:
2.74 x 10-20 moles x 22.4 L/mol = 6.13 x 10-19 L
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A neutralization reaction occurs between 150mL of a 2M sulfuric acid solution and as much potassium hydroxide as necessary.
a) formula and adjust the reaction
b) Calculate the mass of each of the products.
c) to obtain 250g of potassium sulfate, calculate the volume of 1.6M sulfuric acid solution needed.
a) The neutralization reaction between sulfuric acid and potassium hydroxide can be written as follows:
[tex]H_{2}SO_{4} + 2KOH - > K_{2}SO_{4} + 2H_{2}O[/tex]
b) Mass of [tex]K_{2}SO_{4}[/tex]= 104.6 g; mass of [tex]H_{2}O[/tex]= 5.4 g
c) Volume of 1.6 M [tex]H_{2}SO_{4}[/tex] needed to produce 250 g of [tex]K_{2}SO_{4}[/tex]= 0.896 L or 896 mL.
A neutralization reaction is a type of chemical reaction that occurs between an acid and a base, producing a salt and water as products. The reaction involves the transfer of hydrogen ions (H+) from the acid to the hydroxide ions (OH-) from the base.
The resulting salt is neutral because it is made up of cations from the base and anions from the acid. The reaction can be represented by the general equation: acid + base → salt + water.
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Iron (III) oxide is formed when iron combines with oxygen in the air. How many grams of Fe2O3 are formed when 1. 67x10^23 atoms of Fe reacts completely with oxygen?
Approximately 88.67 grams of [tex]Fe_2O_3[/tex] are formed when [tex]1.67*10^{23}[/tex] atoms of Fe react completely with oxygen.
The balanced chemical equation for reaction between iron and oxygen to form iron (III) oxide can be written as:
4 Fe + 3 O2 → 2 [tex]Fe_2O_3[/tex]
To find the number of moles [tex]Fe_2O_3[/tex] formed when [tex]1.67*10^{23[/tex] atoms of Fe react, we first need to convert the given number of atoms of Fe to moles:
1.67x[tex]10^{23}[/tex] atoms of Fe × (1 mol/6.022 x [tex]10^{23}[/tex] atoms) = 0.2777 mol of Fe
The number of moles of [tex]Fe_2O_3[/tex] formed :
0.2777 mol of Fe × (1 mol of [tex]Fe_2O_3[/tex]/0.5 mol of Fe) = 0.5554 mol of[tex]Fe_2O_3[/tex]
We can calculate the mass of [tex]Fe_2O_3[/tex] :
0.5554 mol of [tex]Fe_2O_3[/tex] × 159.69 g/mol = 88.67 g of [tex]Fe_2O_3[/tex]
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